CN108302703B - Air quality management method, system and computer readable storage medium - Google Patents

Abstract

The invention discloses an air quality management method, which comprises the following steps: after the execution terminal is started, detecting whether the execution terminal has the active air quality management authority authorized by a user in advance; if so, acquiring the air quality parameter of the site where the air quality parameter is located, and sending the acquired air quality parameter to a cloud server; the cloud server generates a corresponding air quality management instruction according to the received air quality parameter and pre-stored user authorization information corresponding to the execution terminal, and issues the generated air quality management instruction to the execution terminal; and the execution terminal executes the corresponding air conditioning function according to the air quality management instruction. The invention also discloses an air quality management system and a computer readable storage medium. The invention can simplify the design of system products related to air quality management, reduce the cost and simultaneously improve the intellectualization and the practicability of the air quality management and the degree of user privacy protection.

Description

Air quality management method, system and computer readable storage medium

Technical Field

The invention relates to the field of smart home, in particular to an air quality management method, an air quality management system and a computer readable storage medium.

Background

With the development of economy and science, people pay more and more attention to clean environment, and air purification equipment, air conditioners and other equipment which are closely related to air quality management capacity gradually become popular.

At present, the management of air quality in the market mainly takes independent air purification equipment and an air conditioner as main parts, or adopts a method of simply superposing the functions of the two equipment, and the two modes have the problems of complicated equipment structure, redundant functions or mutual interference of the functions, complex operation and setting, difficult cost control and the like, so that the air quality management system is high in price, inconvenient to use and difficult to popularize; in addition, many intelligent air quality management devices in the market at present, especially intelligent household appliances carrying abundant sensors, do not effectively collect and manage privacy authorization information of users, and an effective solution is lacking in various links related to generation, transmission, use and the like of user information. Therefore, how to simplify the design of the system product related to the air quality management, reduce the cost, and improve the intellectualization, the practicability and the user privacy protection degree of the air quality management becomes a problem to be solved at present.

Disclosure of Invention

The invention mainly aims to provide an air quality management method, an air quality management system and a computer readable storage medium, aiming at simplifying the design of system products related to air quality management, reducing the cost and simultaneously improving the intellectualization and the practicability of air quality management and the degree of user privacy protection.

In order to achieve the above object, the present invention provides an air quality management method, including the steps of:

after the execution terminal is started, detecting whether the execution terminal has the active air quality management authority authorized by a user in advance;

if so, acquiring the air quality parameter of the site where the air quality parameter is located, and sending the acquired air quality parameter to a cloud server;

the cloud server generates a corresponding air quality management instruction according to the received air quality parameter and pre-stored user authorization information corresponding to the execution terminal, and sends the generated air quality management instruction to the execution terminal;

and the execution terminal executes a corresponding air conditioning function according to the air quality management instruction.

Preferably, after the executing terminal is powered on, before the step of detecting whether the executing terminal has an active air quality management authority authorized in advance by a user, the executing terminal further includes:

in the execution terminal sale process, the cloud server collects user information of a user who purchases the execution terminal, the user information at least comprises user authorization information corresponding to the execution terminal, and the user authorization information comprises whether the user authorizes the cloud server to perform air quality management on the execution terminal, and the range and the mode of authorization management.

Preferably, in the execution terminal selling process, the step of the cloud server collecting the user information of the user who purchased the execution terminal includes:

the cloud server acquires a network order of the execution terminal purchased by the user, and reads a goods distribution address from the network order;

issuing the network order to a service center corresponding to the goods distribution address;

and receiving the delivery information based on the execution terminal returned by the service center, and taking the delivery information as the user information of the user who purchases the execution terminal.

Preferably, the step of acquiring the air quality parameter of the site where the execution terminal is located by the execution terminal includes:

the execution terminal acquires field air quality parameters through an air quality sensor integrated with the execution terminal, and/or receives the field air quality parameters of the execution terminal sent by the user terminal.

Preferably, the step of generating, by the cloud server, a corresponding air quality management instruction according to the received air quality parameter and the pre-stored user authorization information corresponding to the execution terminal includes:

the cloud server receives a remote control instruction based on the execution terminal, which is sent by the user terminal;

and generating a corresponding air quality management instruction by combining the remote control instruction, the air quality parameter and the pre-stored user authorization information corresponding to the execution terminal.

Preferably, the step of generating, by the cloud server, a corresponding air quality management instruction by combining the remote control instruction, the air quality parameter, and the pre-stored user authorization information corresponding to the execution terminal includes:

the cloud server acquires public service data corresponding to pre-stored geographical position information of the execution terminal, wherein the public service data at least comprises one or more of meteorological data, pollution accident data, geological disaster data, municipal power and water policy data and medical event data;

and generating a corresponding air quality management instruction by combining the remote control instruction, the air quality parameter, the public service data and pre-stored user authorization information corresponding to the execution terminal.

Preferably, the air quality management method further includes:

the cloud server judges whether the received air quality parameters and the received public service data meet preset alarm conditions;

and when the air quality parameter or the public service data meets a preset alarm condition, pushing corresponding alarm information and processing suggestions to the user terminal.

Preferably, after the step of detecting whether the execution terminal has the active air quality management authority authorized in advance by the user after the execution terminal is powered on, the method further includes:

and if the execution terminal detects that the execution terminal does not have the active air quality management authority, entering an offline air quality management mode, and under the offline air quality management mode, operating the execution terminal independently or networking with the user terminal.

In addition, to achieve the above object, the present invention also provides an air quality management system including an execution terminal, a cloud server, and an air quality management program, which when executed by the execution terminal and the cloud server, implements the steps of the air quality management method as described above.

Further, to achieve the above object, the present invention also provides a computer-readable storage medium having stored thereon an air quality management program which, when executed by a processor, implements the steps of the air quality management method as described above.

After the execution terminal is started, whether the execution terminal has the active air quality management authority authorized in advance by a user is detected; if so, acquiring the air quality parameter of the site where the air quality parameter is located, and sending the acquired air quality parameter to a cloud server; the cloud server generates a corresponding air quality management instruction according to the received air quality parameter and pre-stored user authorization information corresponding to the execution terminal, and sends the generated air quality management instruction to the execution terminal; and the execution terminal executes a corresponding air conditioning function according to the air quality management instruction. According to the air quality monitoring system and the air quality monitoring method, the execution terminal and the cloud server are used for communicating, so that complicated air quality detection equipment and air purification equipment do not need to be installed on an air management field, and the cost is reduced; the on-site air quality parameters are collected through the execution terminal on the premise of user authorization, then the corresponding air quality management instruction is obtained from the cloud server, the on-site air quality is adjusted, the intelligent and practical degree is high, and meanwhile, the user privacy is effectively protected.

Drawings

FIG. 1 is a schematic system diagram of an embodiment of an air quality management system according to the present invention;

FIG. 2 is a schematic flow chart of a first embodiment of the air quality management method of the present invention;

FIG. 3 is a schematic flow chart of a second embodiment of the air quality management method of the present invention;

FIG. 4 is a schematic diagram of a refinement step of step S50 in FIG. 3;

fig. 5 is a schematic flow chart of a fourth embodiment of the air quality management method of the invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in itself. Thus, "module", "component" or "unit" may be used mixedly.

Referring to fig. 1, fig. 1 is a schematic system structure diagram of an embodiment of an air quality management system according to the present invention. The air quality management system may include: the execution terminal 100 comprises a communication unit 101, a sensor unit 102, an execution unit 103 and other units 104, the user terminal 200 comprises a communication unit 201, a voice processing unit 202, a digital signal processing unit 203, a sensor unit 204, a display unit 205 and other functional units 206, and the cloud server 300 comprises a communication unit 301, a computing unit 302, a data crawler unit 303 and a data management unit 304. Those skilled in the art will appreciate that the various terminal configurations shown in fig. 1 are not intended to be limiting of the terminal, and that the terminal may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

The various components of the air quality management system are described in detail below with reference to fig. 1:

the execution terminal 100 may be an intelligent air purification apparatus such as an air conditioner, an air purifier, etc. The execution terminal 100 includes functional modules such as a communication unit 101, a sensor unit 102, an execution unit 103, and another unit 104.

The communication unit 101 is configured to communicate with one or more of the user terminal 200, the cloud server 300, and the like to exchange data.

Optionally, the communication unit 101 may be based on one or more of communication manners such as WIFI, bluetooth, infrared, and the like;

the sensor unit 102 is configured to collect ambient environment parameters and the like for the execution terminal 100, including but not limited to one or more of environment parameters such as specific voltage, specific current, temperature, humidity, oxygen content, carbon dioxide content, VOC (volatile organic compound) gas content, dust content, formaldehyde content and the like;

it is understood that the sensor unit 102 may be a stand-alone functional module, or may be integrated or partially integrated in other suitable locations within the executive terminal 100;

the execution unit 103 is used for controlling the controlled parameter within the allowable fluctuation range of the set value range according to a set strategy;

it can be understood that the execution unit 103 may include, but is not limited to, one or more of a purification module, an air conditioner internal unit, an air conditioner external unit, a related valve body, a fresh air supplement, a ventilation fan, a heater, a fan, a lighting system, and other functional modules, which may be networked by a user and authorized to control the execution terminal 100;

the other units 104 are mainly used for performing some auxiliary functions, and it is understood that the other units 104 will include functional units such as display function, key input, backlight management, power management, control signal coding learning, and the like.

The user terminal 200 may be a mobile terminal such as a smart phone, a tablet computer, a notebook computer, a navigation device, a wearable device, a smart band, a pedometer, and a fixed terminal such as a digital TV, a desktop computer, or a terminal customized for a manufacturer. The user terminal 200 includes functional modules such as a communication unit 201, a voice processing unit 202, a digital signal processing unit 203, a sensor unit 204, a display unit 205, and other functional units 206.

The communication unit 201 is used for communicating with one or more of the execution terminal 100, the cloud server 300 and the like to exchange data.

Optionally, the communication unit 201 may be based on one or more of WIFI, bluetooth, infrared and other communication manners.

The voice processing unit 202 and the digital signal processing unit 203 are mainly used for receiving, processing and analyzing a voice control instruction signal sent by a user, and understandably comprise modules such as hardware and algorithms required by capturing and identifying the voice signal;

the sensor unit 204 is configured to collect ambient environmental parameters and the like for the user terminal 200, including but not limited to one or more of environmental parameters such as geographical location, specific voltage, specific current, temperature, humidity, oxygen content, carbon dioxide content, VOC gas content, dust content, formaldehyde content and the like;

it is to be understood that the sensor unit 204 may be a stand-alone functional module, or may be integrated or partially integrated in other suitable locations within the user terminal 200;

the display unit 205 is mainly used for providing a human-computer interaction interface between a user and the user terminal 200, including a functional interface for displaying related information, inputting a user instruction, and the like;

the other functional units 206 are mainly used for performing some auxiliary functions, and it is understood that the other functional units 206 will include functional units such as display function, key input, backlight management, power management, control signal coding learning, and the like.

Optionally, the communication unit 201 and the communication unit 101 may also use a wired communication manner to complete a data exchange function, and at this time, the communication manner may use one or more of RS485, CAN BUS (Controller Area Network BUS), IIC (Inter-Integrated Circuit BUS), UART (universal asynchronous Receiver/Transmitter), SPI (Serial peripheral interface), and other communication manners of power carrier communication.

The cloud server 300 includes functional modules such as a communication unit 301, a computing unit 302, a data crawler unit 303, a data management unit 304, and the cloud server 300.

Optionally, the cloud server 300 may also be connected to a customer service center or related customer service personnel, and other required support personnel and equipment and facilities;

the communication unit 301 is configured to communicate with one or more of the execution terminal 100, the user terminal 200, and the like to exchange data.

The data crawler unit 303 is mainly used for crawling data from other data sources, and it is understood that other data sources include, but are not limited to, a public weather data server, a public news server, other service center servers, a customer service data server, and some special transaction data servers;

the data management unit 304 is used for receiving, storing and managing the data summarized by each party, and includes data management functions of a centralized or distributed data storage center, a switching center, a backup center and the like;

it is understood that the data managed by the data management unit 304 will include, but is not limited to:

user and product and service information data: including but not limited to product delivery code, product model, product configuration, warranty date and history information, purchase channel, purchase date, authority information authorized by the user to the cloud server 300, product installation location information, and other information authorized by the user;

public service data: including but not limited to meteorological data, pollution accident data, geological disaster data, municipal power and water policy data, medical event data, and the like;

value-added service data: including but not limited to video libraries, audio libraries, online and offline mall data, specific educational aides, etc.;

the calculating unit 302 is mainly used for calculating, processing and analyzing data acquired by each executing terminal 100, the user terminal 200 and other channels, responding to data services such as query and statistics of relevant users, and generating relevant solutions, reports or instructions and the like in time according to a given policy algorithm;

it can be understood that the receiver of the solution, report, instruction, or the like generated by the computing unit 302 may be one or more of the devices such as the execution terminal 100, the user terminal 200, and the like, the cloud server 300 or its related functional units, and also may be a data center such as other service center servers, customer service data servers, and some special transaction data servers, or a customer service center or related customer service personnel; benefiting from the computing power of the cloud server 300 or the cluster thereof, the established policy algorithm can provide an optimized air quality control scheme based on the user field data and the public service data uploaded by the massive execution terminals 100 and in combination with the user authorization information, and can adjust the control parameters of the execution terminals 100 in time according to the optimized air quality control scheme, so that the comfort, safety and energy efficiency optimization requirements of the users are met in time and reasonably.

The embodiments of the air quality management system of the present invention are substantially the same as the embodiments of the air quality management method described below, and are not described herein again.

Based on the system structure, the embodiment of the air quality management method is provided.

Referring to fig. 2, fig. 2 is a schematic flow chart of a first embodiment of the air quality management method of the present invention. The embodiment is suitable for various types of air detection and treatment equipment, mainly applied to the fields of household and office places, large-scale equipment using air conditioning equipment, public facilities and the like, and particularly relates to air conditioning equipment which needs to detect the content of specific gas in air and takes the information as action reference of other control mechanisms, wherein the air conditioning equipment comprises an air temperature and humidity adjusting device, an air dust removal and purification device, a fresh air system, an air supply system and the like. The method comprises the following steps:

step S10, after the execution terminal is started, detecting whether the execution terminal has the air quality active management authority authorized by the user in advance;

if so, executing step S20, acquiring the air quality parameter of the site where the air quality parameter is located, and sending the acquired air quality parameter to a cloud server;

in this embodiment, the execution terminal may perform data interaction with the cloud server under the user authorization condition. Firstly, after the execution terminal is started, the execution terminal can read the locally stored related authorization information to detect whether the execution terminal has an air quality active management authority which is authorized in advance by a user, wherein the air quality active management authority is an authority which allows the execution terminal to communicate with the cloud server, and after the user purchases the execution terminal, the authority can be set or adjusted at any time according to the actual needs of the user, including authorization, authorization range, authorization cancellation and the like, and the specific adjustment operation mode can be as follows: the user performs setting adjustment in the permission page of the relevant APP, or notifies the execution terminal provider, and the execution terminal provider assists in setting adjustment, which is not limited in this embodiment.

If the execution terminal detects that the execution terminal has the active air quality management authority authorized by the user in advance, the execution terminal obtains the air quality parameters of the site where the execution terminal is located, wherein the air quality parameters include but are not limited to one or more of environment parameters such as specific voltage, specific current, temperature, humidity, oxygen content, carbon dioxide content, VOC gas content, dust content and formaldehyde content.

The method for the execution terminal to obtain the air quality parameter of the site where the execution terminal is located can be as follows: the method includes acquiring a field air quality parameter through an air quality sensor integrated with the device, or receiving the field air quality parameter of an execution terminal sent by a user terminal, or receiving an air quality parameter sent by an external air quality detection device, and the like. In addition, the execution terminal can acquire the air quality parameters of the site where the execution terminal is located in real time or at certain time intervals, and can be flexibly set during specific implementation.

After the air quality parameters of the site where the execution terminal is located are obtained, the execution terminal sends the obtained air quality parameters to the cloud server, and it should be noted that when data are sent, the execution terminal needs to send the unique device identifier of the execution terminal to the cloud server together, so that the cloud server can identify different execution terminals.

Step S30, the cloud server generates a corresponding air quality management instruction according to the received air quality parameter and pre-stored user authorization information corresponding to the execution terminal, and issues the generated air quality management instruction to the execution terminal;

and the cloud server searches for pre-stored user authorization information corresponding to the execution terminal according to the unique equipment identifier in the received information, wherein the user authorization information comprises whether the user authorizes the cloud server to perform air quality management on the execution terminal, and the management range, mode and the like. Generally, the user authorization information in the cloud server and the authorization information in the execution terminal are synchronized in advance, so that the user authorization information and the authorization information are consistent. And then, the cloud server generates a corresponding air quality management instruction according to the received air quality parameters and the user authorization information.

Specifically, the manner of generating the corresponding air quality management instruction by the cloud server according to the received air quality parameter and the user authorization information may be: and the cloud server analyzes and processes the corresponding air quality parameters in the management range and the management mode authorized by the user, and generates a corresponding air quality management instruction when the air quality parameters meet preset management conditions. For example, in the user authorization information, if the user authorizes automatic dust removal detection and dust removal management on the air, the cloud server obtains corresponding dust content parameters from the received air quality parameters, compares the corresponding dust content parameters with preset standard values, and generates a management instruction for controlling the execution terminal to start a dust removal mode or adjust dust removal power if the dust content is detected to be over-standard.

And after the air quality management command is generated, the server issues the generated air quality management command to the corresponding execution terminal.

And step S40, the executive terminal executes the corresponding air conditioning function according to the air quality management instruction.

The execution terminal receives the air quality management instruction sent by the cloud server, namely executes a corresponding air conditioning function, wherein the air conditioning function comprises but is not limited to dust removal, ventilation, fresh air, filtration, humidity adjustment, temperature adjustment and the like.

Through the mode, the execution terminal can autonomously acquire the field air quality parameters and send the field air quality parameters to the cloud server, the cloud server generates the corresponding air quality management instructions, and the cloud server can manage the air quality of a plurality of different execution terminals due to the powerful storage and calculation capacity of the cloud server; in addition, the air quality management method provided by the embodiment strictly follows the user authorization principle, so that the user privacy can be effectively protected, flexible air quality management can be performed according to different user authorization information, and the receiving degree and experience degree of the user are improved.

In addition, the method can reduce the number of operations required by the user for directly controlling the execution terminal, even completely avoid the user from operating and maintaining the execution terminal, achieve the aim of helping the user to actively control the air quality of the environment where the user is located, and enable the user to obtain high-reliability, all-weather, uninterrupted, continuous and real-time active air quality management capability.

After the execution terminal is started, whether the execution terminal has the active air quality management authority authorized by a user in advance is detected; if so, acquiring the air quality parameter of the site where the air quality parameter is located, and sending the acquired air quality parameter to a cloud server; the cloud server generates a corresponding air quality management instruction according to the received air quality parameter and pre-stored user authorization information corresponding to the execution terminal, and sends the generated air quality management instruction to the execution terminal; and the execution terminal executes a corresponding air conditioning function according to the air quality management instruction. In the embodiment, the mode of communication between the execution terminal and the cloud server is adopted, so that complicated air quality detection equipment and air purification equipment do not need to be installed on an air management field, and the cost is reduced; the on-site air quality parameters are collected through the execution terminal on the premise of user authorization, then the corresponding air quality management instruction is obtained from the cloud server, the on-site air quality is adjusted, the intelligent and practical degree is high, and meanwhile, the user privacy is effectively protected.

Further, referring to fig. 3, fig. 3 is a schematic flow chart of a second embodiment of the air quality management method according to the present invention. Based on the above embodiment shown in fig. 2, before step S10, the method may further include:

step S50, in the process of selling the execution terminal, the cloud server collects user information of a user who purchases the execution terminal, where the user information at least includes user authorization information corresponding to the execution terminal.

In this embodiment, in order to ensure smooth subsequent air quality management, in the process of executing terminal sales, the cloud server needs to collect and store user information of a user who purchases the execution terminal in advance, where the user information at least includes user authorization information corresponding to the execution terminal, and the user authorization information includes whether the user authorizes the cloud server to perform air quality management on the execution terminal, and a scope and a manner of authorization management. The authorized management range represents a range in which the cloud server can manage the functions of the execution terminal, for example, the cloud server can only control the execution terminal to be turned on or turned off, but cannot control the execution terminal to adjust the air purification power; the authorization management mode is mainly used for indicating the priority of management of the execution terminal based on the same function cloud server, for example, the air purification power of the execution terminal can be preferentially adjusted by the cloud server rather than the adjustment instruction of the user terminal.

Further, referring to fig. 4, fig. 4 is a schematic diagram of a refinement step of step S50 in fig. 3. Step S50 may include:

step S51, the cloud server acquires a network order of the execution terminal purchased by the user, and reads a goods distribution address from the network order;

step S52, the network order is sent to a service center corresponding to the goods distribution address;

step S53, receiving the delivery information based on the execution terminal returned by the service center, and using the delivery information as the user information of the user who purchased the execution terminal.

In order to ensure that real and effective user information is obtained, in the process of executing terminal sales, a user purchase intention including functions of products to be purchased, the approximate installation position, the using crowd and the like can be obtained through a network mall or shopping guide personnel; then, the obtained basic intention information of the user can be transmitted to a cloud server through the input operation of a network mall or a shopping guide person, and the cloud server analyzes the basic intention information of the user so as to recommend a proper product to the user.

The user can refer to a recommended product or select a proper product by himself or herself and place a product order in an online channel or an offline channel, at this time, the cloud server generates a network order according to order information of the product purchased by the user, and reads a distribution address from the network order, such as an XX cell in an XX city street XX; then, the cloud server issues the network order to a service center corresponding to the distribution address, the service center corresponds to offline service areas which are set by manufacturers at different positions and distribute goods for users, and after the service areas receive the network order, workers can contact the customers, so that effective installation time, specific installation places and the like can be obtained; then, the staff enters the effective information into the service center or transmits the effective information to the cloud server, and the service center or the cloud server generates an effective order and a corresponding installation guide order and an acceptance guide order.

Then, the service area installer delivers goods to a place designated by the user, the order is opened by using the held terminal, the bar code of the user order and the bar code on the equipment are scanned according to the installation guide list, the installation is completed and the user authority is activated, after the trial operation is normal, the user is requested to check and accept item by item according to a list listed in the check and acceptance guide list, the check and acceptance guide list simultaneously provides privacy protection protocol and special function authority, after the user checks and submits, the installer modifies the state of the installation guide list into a customable list and inputs the delivery information into the service center system.

After the service center acquires the delivery information, the delivery information is sent to the cloud server, the cloud server receives the delivery information based on the execution terminal returned by the service center, and the delivery information is used as user information of a user who purchases the execution terminal, and at the moment, the user information can be regarded as real and effective; the user information includes, but is not limited to, a user name, a phone number, an identification number, an installation address, a model number of a purchased product, a device identification, and the like.

It should be noted that, in the process of generating the network order or entering the user information into the related system, besides the active input by the user, the LBS (Location Based Service) technology and the voice conversion technology may be used in combination, wherein the LBS Service technology is mainly applied by using the automatic geographic Location determination technology to save the time for manually entering the information of the ordering Location, the installation Location, etc., and the entering user only needs to confirm or slightly change the address information automatically generated by the LBS Service technology, so that the user experience of text entry can be effectively improved; the real-time voice text technology is mainly used for providing voice input assistance when information is input, and aims to improve user experience and input efficiency in a natural voice mode.

In this embodiment, the cloud server provides a precondition guarantee for the subsequent execution of air quality management by collecting user information during the execution of terminal sales.

Further, based on the first and second embodiments of the air quality control method of the present invention, a third embodiment of the air quality control method of the present invention is proposed.

In this embodiment, the step of the execution terminal acquiring the air quality parameter of the site where the execution terminal is located may include: the execution terminal acquires field air quality parameters through an air quality sensor integrated with the execution terminal, and/or receives the field air quality parameters of the execution terminal sent by the user terminal.

The mode of acquiring the air quality parameters of the site by the user terminal can be as follows: and receiving the air quality parameters input by the user based on the interactive interface of the related APP, or detecting the air quality parameters through a sensor of the user.

Further, step S30 may include: the cloud server receives a remote control instruction based on the execution terminal, which is sent by the user terminal; and generating a corresponding air quality management instruction by combining the remote control instruction, the air quality parameter and the pre-stored user authorization information corresponding to the execution terminal.

Specifically, an intelligent household appliance APP is installed on a user terminal, and a user can trigger a remote control instruction for the intelligent household appliance, namely an execution terminal, based on the intelligent household appliance APP, wherein the remote control instruction includes but is not limited to dust removal, ventilation, fresh air, filtration, humidity adjustment, temperature adjustment instructions and the like; the user terminal sends a remote control instruction triggered by a user to the cloud server, the cloud server receives the remote control instruction and then determines whether to adopt the remote control instruction to control the execution terminal or not by combining with user authorization information, for example, in a range and a mode of air quality authorized management by the user, the cloud server preferentially adopts an air quality management instruction obtained by operating air quality parameters to control the execution terminal, and in a range and a mode exceeding the air quality authorized management by the user, the remote control instruction sent by the user terminal is adopted to control the execution terminal, so that the generated air quality management instruction is maximally suitable for the field air quality condition of the execution terminal.

Further, the step of generating a corresponding air quality management instruction by combining the remote control instruction, the air quality parameter, and the pre-stored user authorization information corresponding to the execution terminal may further include:

the cloud server acquires public service data corresponding to pre-stored geographical position information of the execution terminal, wherein the public service data at least comprises one or more of meteorological data, pollution accident data, geological disaster data, municipal power and water policy data and medical event data;

and generating a corresponding air quality management instruction by combining the remote control instruction, the air quality parameter, the public service data and pre-stored user authorization information corresponding to the execution terminal.

Further, the cloud server may further determine whether the received air quality parameter and the received public service data satisfy a preset alarm condition;

and when the air quality parameter or the public service data meets a preset alarm condition, pushing corresponding alarm information and processing suggestions to the user terminal.

Specifically, the cloud server can read geographic position information of the execution terminal from the user information, then obtain cloud public service data of the position, wherein the public service data at least comprises one or more of meteorological data, pollution accident data, geological disaster data, municipal power and water policy data and medical event data, and then the cloud server simultaneously combines a remote control instruction sent by the user terminal, an air quality parameter sent by the execution terminal, public service data obtained from the cloud public service, and user authorization information to generate a corresponding air quality management parameter.

For example, the cloud server may first determine, in combination with the air quality parameter and the public service data, whether an air quality environment of a field where the execution terminal is located is present or is about to be present, and may cause a great loss of a user or even harm to user safety, where the situations include that a field pollutant leakage of the execution terminal causes a field harmful substance content to reach a great harm limit, a major production safety accident or a geological disaster occurs in a region where the execution terminal is located, a region pollution level reaches the great harm limit or a great harm limit may be reached according to calculation of the cloud server, and the cloud server predicts, according to the calculation, a great probability that a pollutant release or accumulation amount of the field or the region where the execution terminal is located reaches the great harm limit; if the situation that the air quality environment of the site where the execution terminal is located is determined to be present or about to be present, which may cause great loss to the user or even harm the user safety, the cloud server directly generates a corresponding air quality management instruction, where the generated air quality management instruction includes but is not limited to: controlling the execution terminal to perform full-power purification, full-power ventilation and the like, displaying the full-power purification, the full-power ventilation and the like on a panel or a remote controller, and sending reminding information to the corresponding user terminal; in addition, the cloud server can directly push corresponding alarm information and processing suggestions to the user terminal under the condition that the received air quality parameters and public service data meet preset alarm conditions, and can remind the user through a machine or an artificial voice telephone under the particularly serious condition, so that the user loss is reduced to the maximum degree, and the user safety is ensured.

Of course, when the air quality environment of the site where the execution terminal is located does not reach the alarm condition, the execution terminal may be controlled by preferentially using an air quality management instruction obtained by operating the air quality parameter by the cloud server within the range and the mode of the user authorized management of the air quality, and the execution terminal may be controlled by using a remote control instruction sent by the user terminal within the range and the mode of the user authorized management of the air quality.

In the embodiment, the analysis is performed by combining the multi-party data, so that the corresponding air quality management instruction is generated, and the alarm information is sent out when the air quality meets the preset condition, so that the cloud server can manage the air quality more accurately and intelligently, and the user experience is improved.

Further, referring to fig. 5, fig. 5 is a schematic flow chart of a fourth embodiment of the air quality management method according to the present invention. Based on the above-mentioned embodiment shown in fig. 2, after step S10, the method may further include:

if the execution terminal detects that the execution terminal does not have the active air quality management authority, the step S60 is executed, and an offline air quality management mode is entered, where the execution terminal operates alone or in a networking manner with the user terminal in the offline air quality management mode.

In the embodiment, the user can set or cancel the air quality active management authority of the execution terminal at any time, if the execution terminal detects that the execution terminal does not have the air quality active management authority when the execution terminal is started, the execution terminal enters an off-line air quality management mode, in the offline air quality management mode, the executive terminal is limited to communicate with the cloud server, the executive terminal operates alone or in a networking mode with the user terminal, the data source mainly comprises strategy data pre-downloaded by the user terminal and field data collected by the executive terminal except that network-based data cannot be obtained through networking with the cloud server, other functions can be reserved as much as possible through preset strategies, such as controlling the execution terminal to perform full-power purification, full-power ventilation and the like, and the prompt information is displayed on a panel or a remote controller to control the execution terminal to send the prompt information to the corresponding user terminal.

According to the embodiment, the execution terminal still keeps other functions except communication with the cloud server under the condition that the execution terminal does not have the active air quality management authority, so that the air quality is managed on the premise of protecting the privacy of the user, and the improvement of user experience is facilitated.

The invention also provides a computer readable storage medium.

The present computer readable storage medium has stored thereon an air quality management program which, when executed by a processor, implements the steps of the air quality management method as described above.

The method implemented when the air quality management program running on the processor is executed may refer to various embodiments of the air quality management method of the present invention, and details thereof are not repeated herein.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. An air quality management method, characterized by comprising the steps of:

in the process of executing terminal sales, a cloud server collects user information of a user purchasing the executing terminal, wherein the user information at least comprises user authorization information corresponding to the executing terminal, and the user authorization information comprises whether the user authorizes the cloud server to perform air quality management on the executing terminal and the range and mode of authorization management;

after the execution terminal is started, detecting whether the execution terminal has the active air quality management authority authorized by a user in advance;

if so, acquiring the air quality parameter of the site where the air quality parameter is located, and sending the acquired air quality parameter to the cloud server;

the cloud server generates a corresponding air quality management instruction according to the received air quality parameter and the user authorization information, and sends the generated air quality management instruction to the execution terminal;

and the execution terminal executes a corresponding air conditioning function according to the air quality management instruction.

2. The air quality management method of claim 1, wherein the step of the cloud server collecting user information of a user who purchased the execution terminal during the execution terminal sales process comprises:

the cloud server acquires a network order of the execution terminal purchased by the user, and reads a goods distribution address from the network order;

issuing the network order to a service center corresponding to the goods distribution address;

and receiving the delivery information based on the execution terminal returned by the service center, and taking the delivery information as the user information of the user who purchases the execution terminal.

3. The air quality management method according to claim 1, wherein the step of the execution terminal obtaining the air quality parameter of the site where the execution terminal is located comprises:

the execution terminal acquires field air quality parameters through an air quality sensor integrated with the execution terminal, and/or receives the field air quality parameters of the execution terminal sent by the user terminal.

4. The air quality management method according to claim 3, wherein the step of generating, by the cloud server, the corresponding air quality management instruction according to the received air quality parameter and the user authorization information corresponding to the execution terminal, which is stored in advance, includes:

the cloud server receives a remote control instruction based on the execution terminal, which is sent by the user terminal;

and generating a corresponding air quality management instruction by combining the remote control instruction, the air quality parameter and the pre-stored user authorization information corresponding to the execution terminal.

5. The air quality management method according to claim 4, wherein the step of generating, by the cloud server, the corresponding air quality management command in combination with the remote control command, the air quality parameter, and pre-stored user authorization information corresponding to the execution terminal includes:

the cloud server acquires public service data corresponding to pre-stored geographical position information of the execution terminal, wherein the public service data at least comprises one or more of meteorological data, pollution accident data, geological disaster data, municipal power and water policy data and medical event data;

and generating a corresponding air quality management instruction by combining the remote control instruction, the air quality parameter, the public service data and pre-stored user authorization information corresponding to the execution terminal.

6. The air quality management method of claim 5, further comprising:

the cloud server judges whether the received air quality parameters and the received public service data meet preset alarm conditions;

and when the air quality parameter or the public service data meets a preset alarm condition, pushing corresponding alarm information and processing suggestions to the user terminal.

7. The air quality management method according to claim 1, wherein after the step of detecting whether the execution terminal has the air quality active management authority pre-authorized by the user after the execution terminal is powered on, the method further comprises:

and if the execution terminal detects that the execution terminal does not have the active air quality management authority, entering an offline air quality management mode, and operating the execution terminal independently or networking with the user terminal in the offline air quality management mode.

8. An air quality management system comprising an execution terminal, a cloud server, and an air quality management program that when executed by the execution terminal and the cloud server, implements the steps of the air quality management method according to any one of claims 1 to 7.

9. A computer-readable storage medium, having stored thereon an air quality management program which, when executed by a processor, implements the steps of the air quality management method of any of claims 1 to 7.

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